Cargando…
Shape staggering of mid-shell mercury isotopes from in-source laser spectroscopy compared with Density Functional Theory and Monte Carlo Shell Model calculations
Neutron-deficient Hg177−185 isotopes were studied using in-source laser resonance-ionization spectroscopy at the CERN-ISOLDE radioactive ion-beam facility in an experiment combining different detection methods tailored to the studied isotopes. These include either α-decay tagging or multireflection...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Lenguaje: | eng |
| Publicado: |
2019
|
| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1103/PhysRevC.99.044306 http://cds.cern.ch/record/2670200 |
| _version_ | 1780962263359815680 |
|---|---|
| author | Sels, S. Day Goodacre, T. Marsh, B.A. Pastore, A. Ryssens, W. Tsunoda, Y. Althubiti, N. Andel, B. Andreyev, A.N. Atanasov, D. Barzakh, A.E. Bender, M. Billowes, J. Blaum, K. Cocolios, T.E. Cubiss, J.G. Dobaczewski, J. Farooq-Smith, G.J. Fedorov, D.V. Fedosseev, V.N. Flanagan, K.T. Gaffney, L.P. Ghys, L. Heenen, P-H. Huyse, M. Kreim, S. Lunney, D. Lynch, K.M. Manea, V. Palenzuela, Y. Martinez Medonca, T.M. Molkanov, P.L. Otsuka, T. Ramos, J.P. Rossel, R.E. Rothe, S. Schweikhard, L. Seliverstov, M.D. Spagnoletti, P. Van Beveren, C. Van Duppen, P. Veinhard, M. Verstraelen, E. Welker, A. Wendt, K. Wienholtz, F. Wolf, R.N. Zadvornaya, A. |
| author_facet | Sels, S. Day Goodacre, T. Marsh, B.A. Pastore, A. Ryssens, W. Tsunoda, Y. Althubiti, N. Andel, B. Andreyev, A.N. Atanasov, D. Barzakh, A.E. Bender, M. Billowes, J. Blaum, K. Cocolios, T.E. Cubiss, J.G. Dobaczewski, J. Farooq-Smith, G.J. Fedorov, D.V. Fedosseev, V.N. Flanagan, K.T. Gaffney, L.P. Ghys, L. Heenen, P-H. Huyse, M. Kreim, S. Lunney, D. Lynch, K.M. Manea, V. Palenzuela, Y. Martinez Medonca, T.M. Molkanov, P.L. Otsuka, T. Ramos, J.P. Rossel, R.E. Rothe, S. Schweikhard, L. Seliverstov, M.D. Spagnoletti, P. Van Beveren, C. Van Duppen, P. Veinhard, M. Verstraelen, E. Welker, A. Wendt, K. Wienholtz, F. Wolf, R.N. Zadvornaya, A. |
| author_sort | Sels, S. |
| collection | CERN |
| description | Neutron-deficient Hg177−185 isotopes were studied using in-source laser resonance-ionization spectroscopy at the CERN-ISOLDE radioactive ion-beam facility in an experiment combining different detection methods tailored to the studied isotopes. These include either α-decay tagging or multireflection time-of-flight gating for isotope identification. The endpoint of the odd-even nuclear shape staggering in mercury was observed directly by measuring for the first time the isotope shifts and hyperfine structures of Hg177−180. Changes in the mean-square charge radii for all mentioned isotopes, magnetic dipole, and electric quadrupole moments of the odd-A isotopes and arguments in favor of I=7/2 spin assignment for Hg177,179 were deduced. Experimental results are compared with density functional theory (DFT) and Monte Carlo shell model (MCSM) calculations. DFT calculations using Skyrme parametrizations predict a jump in the charge radius around the neutron N=104 midshell, with an odd-even staggering pattern related to the coexistence of nearly degenerate oblate and prolate minima. This near-degeneracy is highly sensitive to many aspects of the effective interaction, a fact that renders perfect agreement with experiments out of reach for current functionals. Despite this inherent difficulty, the SLy5s1 and a modified UNEDF1SO parametrization predict a qualitatively correct staggering that is off by two neutron numbers. MCSM calculations of states with the experimental spins and parities show good agreement for both electromagnetic moments and the observed charge radii. A clear mechanism for the origin of shape staggering within this context is identified: a substantial change in occupancy of the proton πh9/2 and neutron νi13/2 orbitals. |
| id | cern-2670200 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2019 |
| record_format | invenio |
| spelling | cern-26702002021-11-24T03:10:47Zdoi:10.1103/PhysRevC.99.044306http://cds.cern.ch/record/2670200engSels, S.Day Goodacre, T.Marsh, B.A.Pastore, A.Ryssens, W.Tsunoda, Y.Althubiti, N.Andel, B.Andreyev, A.N.Atanasov, D.Barzakh, A.E.Bender, M.Billowes, J.Blaum, K.Cocolios, T.E.Cubiss, J.G.Dobaczewski, J.Farooq-Smith, G.J.Fedorov, D.V.Fedosseev, V.N.Flanagan, K.T.Gaffney, L.P.Ghys, L.Heenen, P-H.Huyse, M.Kreim, S.Lunney, D.Lynch, K.M.Manea, V.Palenzuela, Y. MartinezMedonca, T.M.Molkanov, P.L.Otsuka, T.Ramos, J.P.Rossel, R.E.Rothe, S.Schweikhard, L.Seliverstov, M.D.Spagnoletti, P.Van Beveren, C.Van Duppen, P.Veinhard, M.Verstraelen, E.Welker, A.Wendt, K.Wienholtz, F.Wolf, R.N.Zadvornaya, A.Shape staggering of mid-shell mercury isotopes from in-source laser spectroscopy compared with Density Functional Theory and Monte Carlo Shell Model calculationsnucl-thNuclear Physics - Theorynucl-exNuclear Physics - ExperimentNeutron-deficient Hg177−185 isotopes were studied using in-source laser resonance-ionization spectroscopy at the CERN-ISOLDE radioactive ion-beam facility in an experiment combining different detection methods tailored to the studied isotopes. These include either α-decay tagging or multireflection time-of-flight gating for isotope identification. The endpoint of the odd-even nuclear shape staggering in mercury was observed directly by measuring for the first time the isotope shifts and hyperfine structures of Hg177−180. Changes in the mean-square charge radii for all mentioned isotopes, magnetic dipole, and electric quadrupole moments of the odd-A isotopes and arguments in favor of I=7/2 spin assignment for Hg177,179 were deduced. Experimental results are compared with density functional theory (DFT) and Monte Carlo shell model (MCSM) calculations. DFT calculations using Skyrme parametrizations predict a jump in the charge radius around the neutron N=104 midshell, with an odd-even staggering pattern related to the coexistence of nearly degenerate oblate and prolate minima. This near-degeneracy is highly sensitive to many aspects of the effective interaction, a fact that renders perfect agreement with experiments out of reach for current functionals. Despite this inherent difficulty, the SLy5s1 and a modified UNEDF1SO parametrization predict a qualitatively correct staggering that is off by two neutron numbers. MCSM calculations of states with the experimental spins and parities show good agreement for both electromagnetic moments and the observed charge radii. A clear mechanism for the origin of shape staggering within this context is identified: a substantial change in occupancy of the proton πh9/2 and neutron νi13/2 orbitals.Neutron-deficient $^{177-185}$Hg isotopes were studied using in-source laser resonance-ionization spectroscopy at the CERN-ISOLDE radioactive ion-beam facility, in an experiment combining different detection methods tailored to the studied isotopes. These include either alpha-decay tagging or Multi-reflection Time-of-Flight gating to identify the isotopes of interest. The endpoint of the odd-even nuclear shape staggering in mercury was observed directly by measuring for the first time the isotope shifts and hyperfine structures of $^{177-180}$Hg. Changes in the mean-square charge radii for all mentioned isotopes, magnetic dipole and electric quadrupole moments of the odd-A isotopes and arguments in favor of $I = 7/2$ spin assignment for $^{177,179}$Hg were deduced. Experimental results are compared with Density Functional Theory (DFT) and Monte-Carlo Shell Model (MCSM) calculations. DFT calculations with several Skyrme parameterizations predict a large jump in the charge radius around the neutron $N = 104$ mid shell, with an odd-even staggering pattern related to the coexistence of nearly-degenerate oblate and prolate minima. This near-degeneracy is highly sensitive to many aspects of the effective interaction, a fact that renders perfect agreement with experiment out of reach for current functionals. Despite this inherent diffculty, the SLy5s1 and a modified UNEDF1^{SO} parameterization predict a qualitatively correct staggering that is off by two neutron numbers. MCSM calculations of states with the experimental spins and parities show good agreement for both electromagnetic moments and the observed charge radii. A clear mechanism for the origin of shape staggering within this context is identified: a substantial change in occupancy of the proton $\pi h_{9/2}$ and neutron $\nu i_{13/2}$ orbitals.arXiv:1902.11211oai:cds.cern.ch:26702002019-02-28 |
| spellingShingle | nucl-th Nuclear Physics - Theory nucl-ex Nuclear Physics - Experiment Sels, S. Day Goodacre, T. Marsh, B.A. Pastore, A. Ryssens, W. Tsunoda, Y. Althubiti, N. Andel, B. Andreyev, A.N. Atanasov, D. Barzakh, A.E. Bender, M. Billowes, J. Blaum, K. Cocolios, T.E. Cubiss, J.G. Dobaczewski, J. Farooq-Smith, G.J. Fedorov, D.V. Fedosseev, V.N. Flanagan, K.T. Gaffney, L.P. Ghys, L. Heenen, P-H. Huyse, M. Kreim, S. Lunney, D. Lynch, K.M. Manea, V. Palenzuela, Y. Martinez Medonca, T.M. Molkanov, P.L. Otsuka, T. Ramos, J.P. Rossel, R.E. Rothe, S. Schweikhard, L. Seliverstov, M.D. Spagnoletti, P. Van Beveren, C. Van Duppen, P. Veinhard, M. Verstraelen, E. Welker, A. Wendt, K. Wienholtz, F. Wolf, R.N. Zadvornaya, A. Shape staggering of mid-shell mercury isotopes from in-source laser spectroscopy compared with Density Functional Theory and Monte Carlo Shell Model calculations |
| title | Shape staggering of mid-shell mercury isotopes from in-source laser spectroscopy compared with Density Functional Theory and Monte Carlo Shell Model calculations |
| title_full | Shape staggering of mid-shell mercury isotopes from in-source laser spectroscopy compared with Density Functional Theory and Monte Carlo Shell Model calculations |
| title_fullStr | Shape staggering of mid-shell mercury isotopes from in-source laser spectroscopy compared with Density Functional Theory and Monte Carlo Shell Model calculations |
| title_full_unstemmed | Shape staggering of mid-shell mercury isotopes from in-source laser spectroscopy compared with Density Functional Theory and Monte Carlo Shell Model calculations |
| title_short | Shape staggering of mid-shell mercury isotopes from in-source laser spectroscopy compared with Density Functional Theory and Monte Carlo Shell Model calculations |
| title_sort | shape staggering of mid-shell mercury isotopes from in-source laser spectroscopy compared with density functional theory and monte carlo shell model calculations |
| topic | nucl-th Nuclear Physics - Theory nucl-ex Nuclear Physics - Experiment |
| url | https://dx.doi.org/10.1103/PhysRevC.99.044306 http://cds.cern.ch/record/2670200 |
| work_keys_str_mv | AT selss shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT daygoodacret shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT marshba shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT pastorea shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT ryssensw shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT tsunoday shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT althubitin shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT andelb shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT andreyevan shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT atanasovd shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT barzakhae shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT benderm shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT billowesj shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT blaumk shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT cocolioste shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT cubissjg shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT dobaczewskij shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT farooqsmithgj shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT fedorovdv shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT fedosseevvn shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT flanagankt shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT gaffneylp shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT ghysl shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT heenenph shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT huysem shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT kreims shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT lunneyd shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT lynchkm shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT maneav shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT palenzuelaymartinez shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT medoncatm shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT molkanovpl shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT otsukat shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT ramosjp shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT rosselre shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT rothes shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT schweikhardl shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT seliverstovmd shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT spagnolettip shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT vanbeverenc shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT vanduppenp shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT veinhardm shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT verstraelene shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT welkera shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT wendtk shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT wienholtzf shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT wolfrn shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations AT zadvornayaa shapestaggeringofmidshellmercuryisotopesfrominsourcelaserspectroscopycomparedwithdensityfunctionaltheoryandmontecarloshellmodelcalculations |